Litcius/Paper detail

Reversible Room-Temperature Fluoride-Ion Insertion in a Tunnel-Structured Transition Metal Oxide Host

Wasif Zaheer, Justin L. Andrews, Abhishek Parija, Forrest P. Hyler, Cherno Jaye, Conan Weiland, Young‐Sang Yu, David A. Shapiro, Daniel A. Fischer, Jinghua Guo, Jesús M. Velázquez, Sarbajit Banerjee

2020ACS Energy Letters28 citationsDOIOpen Access PDF

Abstract

An energy storage paradigm orthogonal to Li-ion battery chemistries can be conceptualized by employing anions as the primary charge carriers. F-ion conversion chemistries show promise but have limited cyclability as a result of the significant change in volume of active electrodes upon metal–metal fluoride interconversion. In contrast, the exploration of insertion chemistries has been stymied by the lack of hosts amenable to reversible F-ion insertion at room temperature. Here we show the reversible and homogeneous topochemical insertion/deinsertion and bulk diffusion of F ions within the one-dimensional tunnels of submicrometer-sized FeSb2O4 particles at room temperature. The insertion of F ions is evidenced by formal oxidation of the iron centers from Fe2+ to Fe3+ with a lattice volume contraction of <1% at a capacity of one F ion per iron center. The topochemical insertion of F ions is observed to be homogeneous across the FeSb2O4 particles. An approach to screen F-ion insertion electrodes through solution-phase topochemical methods is further demonstrated.

Topics & Concepts

IonFluorideHomogeneousMetalInsertion reactionElectrochemistryChemistryOxideElectrodeMaterials scienceInorganic chemistryPhysical chemistryOrganic chemistryThermodynamicsCatalysisPhysicsInorganic Fluorides and Related CompoundsAdvanced Condensed Matter PhysicsCrystal Structures and Properties